![]() (Spring) Hard Biomaterials Characterization (Dr. (Winter) Soft Biomaterials Characterization Laboratory (Dr. This course will cover the fundamental principles of characterization and biodegradation of soft implantable/injectable biomaterials including polymers, hydrogels, liquid crystalline colloids starting with the linkage of microscopic to macroscopic properties and, emphasis on elasticity, adhesion, diffusion and light scattering. (Winter) Soft Biomaterials Characterization (Dr. Familiar with several biological databasesīIOE 158/258.Mater software tools for vector design and sequence analysis.Implement gene editing technologies, including ZFN, TALEN and CRISPR-Cas9.Students will gain skills in the following aspects: Gene therapy for neurological and metabolic diseases.Students will be able to implement therapeutic solutions in the following areas: This course covers the fundamental principles and practical skills of genetic engineering, with an emphasis on producing modern medicines including RNA therapeutics and vaccines, recombinant protein and antibody therapeutics, as well as gene therapy such as CAR-T immunotherapy for cancer treatment. Students in the course will work as teams on problem identification and assessment, iterative development and prototyping of solutions, and concept and business model development, as well as formulation of strategies to ensure regulatory compliance and commercialization success. Prerequisite: Sophomore to senior standing. (4 units)īIOE 150/250 (4 Units, Spring) Genetic and therapeutic engineering (Dr. The course will provide foundational training to address healthcare challenges around the world through innovation. (Winter) Introduction to Healthcare InnovationĪ project-based course that introduces students to healthcare innovation processes for advanced and emerging markets. The theory will be applied to therapeutic scenarios in the fields of biomolecular, biomaterials, and biodevice engineering. Prerequisites: Phys 32, Chem 12. ![]() (Spring) Introduction to Biochemical EngineeringĬonservation of energy and basic principles of heat transfer with applications in specialized areas of equilibrium thermodynamics and bioenergy, foundational to biomedical engineering transport phenomena. (Spring) Introduction to Bio-Devices Laboratory (Dr. This lab-based course introduces measuring, modeling, and designing electronic circuits. ![]() This course covers the fundamentals of electronic circuits, with particular emphasis on connecting biosensors to analog-to-digital inputs of computers. (Spring) Introduction to Bio-Devices (Dr. ![]()
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